136 lines
6.4 KiB
ReStructuredText
136 lines
6.4 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0
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Layout
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------
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The layout of a standard block group is approximately as follows (each
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of these fields is discussed in a separate section below):
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.. list-table::
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:widths: 1 1 1 1 1 1 1 1
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:header-rows: 1
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* - Group 0 Padding
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- ext4 Super Block
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- Group Descriptors
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- Reserved GDT Blocks
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- Data Block Bitmap
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- inode Bitmap
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- inode Table
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- Data Blocks
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* - 1024 bytes
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- 1 block
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- many blocks
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- many blocks
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- 1 block
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- 1 block
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- many blocks
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- many more blocks
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For the special case of block group 0, the first 1024 bytes are unused,
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to allow for the installation of x86 boot sectors and other oddities.
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The superblock will start at offset 1024 bytes, whichever block that
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happens to be (usually 0). However, if for some reason the block size =
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1024, then block 0 is marked in use and the superblock goes in block 1.
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For all other block groups, there is no padding.
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The ext4 driver primarily works with the superblock and the group
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descriptors that are found in block group 0. Redundant copies of the
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superblock and group descriptors are written to some of the block groups
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across the disk in case the beginning of the disk gets trashed, though
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not all block groups necessarily host a redundant copy (see following
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paragraph for more details). If the group does not have a redundant
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copy, the block group begins with the data block bitmap. Note also that
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when the filesystem is freshly formatted, mkfs will allocate “reserve
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GDT block” space after the block group descriptors and before the start
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of the block bitmaps to allow for future expansion of the filesystem. By
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default, a filesystem is allowed to increase in size by a factor of
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1024x over the original filesystem size.
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The location of the inode table is given by ``grp.bg_inode_table_*``. It
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is continuous range of blocks large enough to contain
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``sb.s_inodes_per_group * sb.s_inode_size`` bytes.
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As for the ordering of items in a block group, it is generally
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established that the super block and the group descriptor table, if
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present, will be at the beginning of the block group. The bitmaps and
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the inode table can be anywhere, and it is quite possible for the
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bitmaps to come after the inode table, or for both to be in different
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groups (flex\_bg). Leftover space is used for file data blocks, indirect
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block maps, extent tree blocks, and extended attributes.
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Flexible Block Groups
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---------------------
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Starting in ext4, there is a new feature called flexible block groups
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(flex\_bg). In a flex\_bg, several block groups are tied together as one
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logical block group; the bitmap spaces and the inode table space in the
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first block group of the flex\_bg are expanded to include the bitmaps
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and inode tables of all other block groups in the flex\_bg. For example,
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if the flex\_bg size is 4, then group 0 will contain (in order) the
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superblock, group descriptors, data block bitmaps for groups 0-3, inode
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bitmaps for groups 0-3, inode tables for groups 0-3, and the remaining
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space in group 0 is for file data. The effect of this is to group the
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block group metadata close together for faster loading, and to enable
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large files to be continuous on disk. Backup copies of the superblock
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and group descriptors are always at the beginning of block groups, even
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if flex\_bg is enabled. The number of block groups that make up a
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flex\_bg is given by 2 ^ ``sb.s_log_groups_per_flex``.
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Meta Block Groups
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-----------------
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Without the option META\_BG, for safety concerns, all block group
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descriptors copies are kept in the first block group. Given the default
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128MiB(2^27 bytes) block group size and 64-byte group descriptors, ext4
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can have at most 2^27/64 = 2^21 block groups. This limits the entire
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filesystem size to 2^21 * 2^27 = 2^48bytes or 256TiB.
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The solution to this problem is to use the metablock group feature
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(META\_BG), which is already in ext3 for all 2.6 releases. With the
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META\_BG feature, ext4 filesystems are partitioned into many metablock
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groups. Each metablock group is a cluster of block groups whose group
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descriptor structures can be stored in a single disk block. For ext4
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filesystems with 4 KB block size, a single metablock group partition
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includes 64 block groups, or 8 GiB of disk space. The metablock group
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feature moves the location of the group descriptors from the congested
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first block group of the whole filesystem into the first group of each
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metablock group itself. The backups are in the second and last group of
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each metablock group. This increases the 2^21 maximum block groups limit
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to the hard limit 2^32, allowing support for a 512PiB filesystem.
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The change in the filesystem format replaces the current scheme where
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the superblock is followed by a variable-length set of block group
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descriptors. Instead, the superblock and a single block group descriptor
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block is placed at the beginning of the first, second, and last block
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groups in a meta-block group. A meta-block group is a collection of
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block groups which can be described by a single block group descriptor
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block. Since the size of the block group descriptor structure is 32
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bytes, a meta-block group contains 32 block groups for filesystems with
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a 1KB block size, and 128 block groups for filesystems with a 4KB
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blocksize. Filesystems can either be created using this new block group
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descriptor layout, or existing filesystems can be resized on-line, and
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the field s\_first\_meta\_bg in the superblock will indicate the first
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block group using this new layout.
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Please see an important note about ``BLOCK_UNINIT`` in the section about
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block and inode bitmaps.
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Lazy Block Group Initialization
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-------------------------------
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A new feature for ext4 are three block group descriptor flags that
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enable mkfs to skip initializing other parts of the block group
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metadata. Specifically, the INODE\_UNINIT and BLOCK\_UNINIT flags mean
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that the inode and block bitmaps for that group can be calculated and
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therefore the on-disk bitmap blocks are not initialized. This is
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generally the case for an empty block group or a block group containing
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only fixed-location block group metadata. The INODE\_ZEROED flag means
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that the inode table has been initialized; mkfs will unset this flag and
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rely on the kernel to initialize the inode tables in the background.
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By not writing zeroes to the bitmaps and inode table, mkfs time is
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reduced considerably. Note the feature flag is RO\_COMPAT\_GDT\_CSUM,
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but the dumpe2fs output prints this as “uninit\_bg”. They are the same
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thing.
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